SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4385295251> ?p ?o ?g. }

Showing items 1 to 100 of ±166 with 100 items per page.

W4385295251 endingPage "1046" @default.
W4385295251 startingPage "1028" @default.
W4385295251 abstract "A series of 1,8-naphthalimide (NI)-phenothiazine (PTZ) electron donor-acceptor dyads were prepared to study the thermally activated delayed fluorescence (TADF) properties of the dyads, from a point of view of detection of the various transient species. The photophysical properties of the dyads were tuned by changing the electron-donating and the electron-withdrawing capability of the PTZ and NI moieties, respectively, by oxidation of the PTZ unit, or by using different aryl substituents attached to the NI unit. This tuning effect was manifested in the UV-vis absorption and fluorescence emission spectra, e.g., in the change of the charge transfer absorption bands. TADF was observed for the dyads containing the native PTZ unit, and the prompt and delayed fluorescence lifetimes changed with different aryl substituents on the imide part. In polar solvents, no TADF was observed. For the dyads with the PTZ unit oxidized, no TADF was observed as well. Femtosecond transient absorption spectra showed that the charge separation takes ca. 0.6 ps, and admixtures of locally excited (3LE) state and charge separated (1CS/3CS) states formed (in n-hexane). The subsequent charge recombination from the 1CS state takes ca. 7.92 ns. Upon oxidation of the PTZ unit, the beginning of charge separation is at 178 fs and formation of 3LE state takes 4.53 ns. Nanosecond transient absorption (ns-TA) spectra showed that both 3CS and 3LE states were observed for the dyads showing TADF, whereas only 3LE or 3CS states were observed for the systems lacking TADF. This is a rare but unambiguous experimental evidence that the spin-vibronic coupling of 3CS/3LE states is crucial for TADF. Without the mediating effect of the 3LE state, no TADF is resulted, even if the long-lived 3CS state is populated (lifetime τCS ≈ 140 ns). This experimental result confirms the 3CS → 1CS reverse intersystem crossing (rISC) is slow, without coupling with an approximate 3LE state. These studies are useful for an in-depth understanding of the photophysical mechanisms of the TADF emitters, as well as for molecular structure design of new electron donor-acceptor TADF emitters." @default.
W4385295251 created "2023-07-28" @default.
W4385295251 creator A5022573802 @default.
W4385295251 creator A5066874352 @default.
W4385295251 creator A5071536291 @default.
W4385295251 creator A5083247969 @default.
W4385295251 creator A5087317628 @default.
W4385295251 creator A5088277826 @default.
W4385295251 date "2023-07-19" @default.
W4385295251 modified "2023-09-30" @default.
W4385295251 title "The effect of dark states on the intersystem crossing and thermally activated delayed fluorescence of naphthalimide-phenothiazine dyads" @default.
W4385295251 cites W1607456377 @default.
W4385295251 cites W1973336827 @default.
W4385295251 cites W1974411567 @default.
W4385295251 cites W2004597102 @default.
W4385295251 cites W2035631261 @default.
W4385295251 cites W2062852634 @default.
W4385295251 cites W2071697109 @default.
W4385295251 cites W2072086621 @default.
W4385295251 cites W2078664120 @default.
W4385295251 cites W2081146558 @default.
W4385295251 cites W2129995310 @default.
W4385295251 cites W2149345123 @default.
W4385295251 cites W2150702843 @default.
W4385295251 cites W2158857960 @default.
W4385295251 cites W2238666561 @default.
W4385295251 cites W2313626922 @default.
W4385295251 cites W2313934402 @default.
W4385295251 cites W2314737165 @default.
W4385295251 cites W2343967799 @default.
W4385295251 cites W2408202216 @default.
W4385295251 cites W2497088276 @default.
W4385295251 cites W2558124715 @default.
W4385295251 cites W2592007998 @default.
W4385295251 cites W2592066197 @default.
W4385295251 cites W2592323822 @default.
W4385295251 cites W2613036405 @default.
W4385295251 cites W2619959352 @default.
W4385295251 cites W2624580595 @default.
W4385295251 cites W2750834677 @default.
W4385295251 cites W2764176751 @default.
W4385295251 cites W2786475480 @default.
W4385295251 cites W2802370326 @default.
W4385295251 cites W2802447192 @default.
W4385295251 cites W2810938675 @default.
W4385295251 cites W2891196786 @default.
W4385295251 cites W2908510138 @default.
W4385295251 cites W2951141203 @default.
W4385295251 cites W2971568404 @default.
W4385295251 cites W2972373245 @default.
W4385295251 cites W2985491256 @default.
W4385295251 cites W2990824842 @default.
W4385295251 cites W2994775606 @default.
W4385295251 cites W3002575696 @default.
W4385295251 cites W3006719478 @default.
W4385295251 cites W3015642350 @default.
W4385295251 cites W3023372083 @default.
W4385295251 cites W3030227787 @default.
W4385295251 cites W3037077876 @default.
W4385295251 cites W3042110830 @default.
W4385295251 cites W3046707399 @default.
W4385295251 cites W3088703810 @default.
W4385295251 cites W3094782000 @default.
W4385295251 cites W3096189169 @default.
W4385295251 cites W3107656689 @default.
W4385295251 cites W3119003007 @default.
W4385295251 cites W3127403108 @default.
W4385295251 cites W3130546143 @default.
W4385295251 cites W3152615257 @default.
W4385295251 cites W3175510873 @default.
W4385295251 cites W3184517075 @default.
W4385295251 cites W3186223781 @default.
W4385295251 cites W4206436693 @default.
W4385295251 cites W4213177724 @default.
W4385295251 cites W4213340548 @default.
W4385295251 cites W4221081300 @default.
W4385295251 cites W4224210728 @default.
W4385295251 cites W4281768022 @default.
W4385295251 cites W4282915450 @default.
W4385295251 cites W4283268802 @default.
W4385295251 cites W4304191899 @default.
W4385295251 cites W4310699965 @default.
W4385295251 cites W4322418750 @default.
W4385295251 doi "https://doi.org/10.3762/bjoc.19.79" @default.
W4385295251 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37497052" @default.
W4385295251 hasPublicationYear "2023" @default.
W4385295251 type Work @default.
W4385295251 citedByCount "0" @default.
W4385295251 crossrefType "journal-article" @default.
W4385295251 hasAuthorship W4385295251A5022573802 @default.
W4385295251 hasAuthorship W4385295251A5066874352 @default.
W4385295251 hasAuthorship W4385295251A5071536291 @default.
W4385295251 hasAuthorship W4385295251A5083247969 @default.
W4385295251 hasAuthorship W4385295251A5087317628 @default.
W4385295251 hasAuthorship W4385295251A5088277826 @default.
W4385295251 hasBestOaLocation W43852952511 @default.
W4385295251 hasConcept C119824511 @default.
W4385295251 hasConcept C120665830 @default.